CN217495502U - Hot pressing laminating mechanism - Google Patents

Abstract

The utility model discloses a hot-pressing laminating mechanism, which comprises a front and back traversing mechanism and a hot-pressing platform, wherein the moving end of the front and back traversing mechanism is provided with a traversing carrying platform, the traversing carrying platform is provided with a first lifting moving bracket and a second lifting moving bracket, first lift actuating mechanism and second lift actuating mechanism, first lift actuating mechanism is used for ordering about first lift motion support and rises or descends, second lift actuating mechanism is used for ordering about second lift motion support and rises or descends, the upper end of first lift motion support is equipped with the slant scraper blade that slopes forward, the upper end of second lift motion support is equipped with the roller, the below of rete is all located to slant scraper blade and roller, hot pressing platform locates the top of rete, hot pressing platform is last to be equipped with the hot pressing frame and to be used for ordering about the hot pressing frame and rise or the hot pressing lift actuating mechanism that descends, hot pressing frame aligns the setting with the steel ring. The utility model discloses can accomplish roll-in automatically, strickle off and the hot pressing function, the simultaneous processing precision is high, can improve the product yield.

Description

Hot pressing laminating mechanism

Technical Field

The utility model relates to a laminating equipment especially relates to a hot pressing laminating mechanism.

Background

At present, all can relate to the process for the work piece tectorial membrane under a lot of technological scenes, concrete step is for example at first covered the rete on the steel ring, then place the work piece on the rete, smooth the rete again, attach on the work piece, in the prior art, after the steel ring covered the rete, need place the work piece on the rete, in order to smooth the rete and combine together the rete, steel ring and work piece this moment, need strickle the rete on workpiece surface, fix the edge hot pressing of rete on the steel ring again, above-mentioned process is if accomplished through manual work, then consume time and power, and because of manual operation can't reach ideal precision requirement, lead to the finished product to be lower in the yield after the processing, can not satisfy the production requirement.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to prior art not enough, provide one kind can accomplish the roll-in automatically, strickle and the hot pressing function, the simultaneous processing precision is high, helps improving the hot pressing laminating mechanism of product yield.

In order to solve the technical problem, the utility model adopts the following technical scheme.

A hot-pressing laminating mechanism is used for hot-pressing laminating a film layer on the surfaces of a workpiece and a steel ring and comprises a front and back transverse moving mechanism and a hot-pressing platform, a transverse moving platform deck is arranged at the moving end of the front and back transverse moving mechanism, a first lifting moving support, a second lifting moving support, a first lifting driving mechanism and a second lifting driving mechanism are arranged on the transverse moving platform deck, the first lifting moving support is positioned on the front side of the second lifting moving support, the first lifting driving mechanism is used for driving the first lifting moving support to ascend or descend, the second lifting driving mechanism is used for driving the second lifting moving support to ascend or descend, an oblique scraping plate which inclines forwards is arranged at the upper end of the first lifting moving support, a roll shaft is arranged at the upper end of the second lifting moving support, and the oblique scraping plate and the roll shaft are both arranged below the film layer, when the front and rear transverse moving mechanisms drive the transverse moving carrier to move from front to back, the second lifting driving mechanism drives the second lifting moving support to rise, the film is rolled on the surface of the workpiece by the roller shaft, the first lifting driving mechanism drives the first lifting moving support to rise, the film on the bottom surface of the workpiece is scraped by the inclined scraper, the hot pressing platform is arranged above the film, the hot pressing platform is provided with a hot pressing frame and a hot pressing lifting driving mechanism for driving the hot pressing frame to rise or fall, the hot pressing frame and the steel ring are arranged in an alignment manner, and when the hot pressing lifting driving mechanism drives the hot pressing frame to fall, the film is hot pressed and attached to the steel ring by the hot pressing frame.

Preferably, the first lifting driving mechanism is a motor screw rod driving mechanism, and the second lifting driving mechanism is a cylinder driving mechanism.

Preferably, the roller is a rubber roller.

Preferably, a plurality of inclined scraping plates are arranged at the upper end of the first lifting motion support and are sequentially arranged along the left direction and the right direction of the first lifting motion support.

Preferably, hot pressing lift actuating mechanism including the shape of falling U fagging, the lower extreme of the shape of falling U fagging with hot pressing platform fixed connection, be fixed with hot pressing lift cylinder on the shape of falling U fagging, the lower extreme of hot pressing lift cylinder is fixed with the hot pressing elevator, the hot pressing frame is fixed in the bottom of hot pressing elevator.

Preferably, four sliding sleeves are fixed on the inverted U-shaped supporting plate, sliding rods penetrate through the sliding sleeves and are in sliding fit with the sliding sleeves, and the lower ends of the sliding rods are fixedly connected with the hot-pressing lifting block.

In the hot-pressing laminating mechanism disclosed by the utility model, when the steel ring is coated with a film and a workpiece is placed on a film layer, the front and rear transverse moving mechanisms are utilized to drive the transverse moving platform to move from front to back, then the film layer is rolled in advance, the second lifting driving mechanism is utilized to drive the second lifting moving support to ascend, the roller rolls the film layer on the surface of the workpiece, then the film layer is scraped, the first lifting driving mechanism drives the first lifting moving support to ascend, the oblique scraper blade is utilized to scrape the film layer on the bottom surface of the workpiece, meanwhile, the hot-pressing lifting driving mechanism drives the hot-pressing frame to descend, the film layer is hot-pressed and laminated on the steel ring by the hot-pressing frame, and then the hot-pressing processing of the film layer and the steel ring and the processes of rolling and scraping the film layer are completed based on the principle, make the utility model discloses can accomplish roll-in automatically, strickle off and the hot pressing function, simultaneously the utility model discloses a machining precision is higher, has greatly improved the product yield.

Drawings

FIG. 1 is a perspective view of an automatic laminating apparatus;

FIG. 2 is a block diagram of the rail transport mechanism;

FIG. 3 is a structural diagram of a steel ring feeding mechanism;

FIG. 4 is a view showing a structure of the pick-and-place traverse module;

FIG. 5 is a diagram of a visual inspection module;

FIG. 6 is a view showing the structure of a film feeding mechanism;

FIG. 7 is a block diagram of a finished product receiving bin;

FIG. 8 is a structural view of a film cutting mechanism;

FIG. 9 is a structural diagram of a blanking mechanism of an empty box;

FIG. 10 is a structural diagram of a front side feeding mechanism of a finished product receiving bin;

FIG. 11 is a partial structure diagram of a hot press bonding mechanism;

fig. 12 is a partial configuration diagram of the hot press bonding mechanism.

Detailed Description

The present invention will be described in more detail with reference to the accompanying drawings and examples.

Example one

The embodiment provides a hot-press bonding mechanism, as shown in fig. 1, 11 and 12, the hot-press bonding mechanism 5 is used for hot-press bonding a film layer to a surface of a workpiece and a steel ring 100, the hot-press bonding mechanism 5 includes a front-back traversing mechanism 50 and a hot-press platform 51, a traverse carrier 52 is arranged at a moving end of the front-back traversing mechanism 50, a first lifting/lowering motion bracket 520, a second lifting/lowering motion bracket 521, a first lifting/lowering driving mechanism 522 and a second lifting/lowering driving mechanism 523 are arranged on the traverse carrier 52, the first lifting/lowering motion bracket 520 is located at a front side of the second lifting/lowering motion bracket 521, the first lifting/lowering driving mechanism 522 is used for driving the first lifting/lowering motion bracket 520 to ascend or descend, the second lifting/lowering driving mechanism 523 is used for driving the second lifting/lowering motion bracket 521 to ascend or descend, a forward inclined scraper 524 is arranged at an upper end of the first lifting/lowering motion bracket 520, the upper end of the second lifting/lowering moving frame 521 is provided with a roller 525, the inclined scraper 524 and the roller 525 are both arranged below the film layer, when the front and rear traversing mechanism 50 drives the traversing carrying platform 52 to move from front to back, the second lifting/lowering driving mechanism 523 drives the second lifting/lowering moving frame 521 to ascend, the roller 525 is used for rolling the film layer on the surface of the workpiece, the first lifting/lowering driving mechanism 522 drives the first lifting/lowering moving frame 520 to ascend, the inclined scraper 524 is used for scraping the film layer on the bottom surface of the workpiece, the hot-pressing platform 51 is arranged above the film layer, the hot-pressing platform 51 is provided with a hot-pressing frame 510 and a hot-pressing lifting/lowering driving mechanism 511 for driving the hot-pressing frame 510 to ascend or descend, the hot-pressing frame 510 is arranged in alignment with the steel ring 100, and when the hot-pressing/lowering driving mechanism 511 drives the hot-pressing frame 510 to descend, the film is hot pressed and attached to the steel ring 100 by the hot pressing frame 510.

In the above mechanism, when the film coating is completed on the steel ring 100 and a workpiece is placed on the film layer, the traverse stage 52 is driven to move from front to back by the front and back traverse mechanism 50, then the film layer is firstly rolled, the second lifting drive mechanism 523 drives the second lifting drive bracket 521 to ascend, the roller shaft 525 rolls the film layer on the surface of the workpiece, then the film layer is scraped flat, the first lifting drive mechanism 522 drives the first lifting drive bracket 520 to ascend, the film layer on the bottom surface of the workpiece is scraped flat by the inclined scraper 524, meanwhile, the hot-pressing lifting drive mechanism 511 drives the hot-pressing frame 510 to descend, the hot-pressing frame 510 is used to hot-press and attach the film layer on the steel ring 100, and the processes of hot-pressing, rolling and scraping of the film layer and the film layer are completed, based on the above principle, make the utility model discloses can accomplish roll-in automatically, strickle off and the hot pressing function, simultaneously the utility model discloses a machining precision is higher, has greatly improved the product yield.

In order to achieve reliable lifting movement, in this embodiment, the first lifting driving mechanism 522 is a motor screw driving mechanism, and the second lifting driving mechanism 523 is a cylinder driving mechanism.

Preferably, the roller 525 is a rubber roller. Wherein, the roller of rubber material can avoid causing the damage to the rete.

In this embodiment, a plurality of inclined scrapers 524 are disposed at the upper end of the first lifting bracket 520, and the inclined scrapers 524 are sequentially disposed along the left and right direction of the first lifting bracket 520.

In order to drive the hot pressing frame 510 to stably and reliably move up and down, in this embodiment, the hot pressing lifting driving mechanism 511 includes an inverted U-shaped supporting plate 512, a lower end of the inverted U-shaped supporting plate 512 is fixedly connected to the hot pressing platform 51, a hot pressing lifting cylinder 513 is fixed on the inverted U-shaped supporting plate 512, a hot pressing lifting block 514 is fixed at a lower end of the hot pressing lifting cylinder 513, and the hot pressing frame 510 is fixed at a bottom of the hot pressing lifting block 514.

In order to further improve the lifting stability of the hot pressing lifting block 514, in this embodiment, four sliding sleeves 515 are fixed on the inverted U-shaped supporting plate 512, sliding rods 516 are inserted into the sliding sleeves 515 and are in sliding fit with the sliding sleeves, and the lower ends of the sliding rods 516 are fixedly connected with the hot pressing lifting block 514.

In the above structure, by controlling the hot pressing lifting block 514 and the hot pressing frame 510 to lift stably, it can be ensured that the hot pressing frame 510 presses the film layer straightly, so that the hot pressing uniformity is better.

Example two

The embodiment provides an automatic film laminating device, which is shown in fig. 1 to 10 and comprises a machine table 1, wherein a film layer feeding mechanism 2, a steel ring film laminating and transferring mechanism 3, a workpiece picking and placing mechanism 4, a hot-pressing and laminating mechanism 5, a finished product receiving bin 6, a steel ring feeding mechanism 7, a workpiece feeding mechanism 8, an empty box blanking mechanism 9 and a track conveying mechanism 10 are arranged on the machine table 1, the film layer feeding mechanism 2 and the finished product receiving bin 6 are respectively arranged at the front end and the rear end of the track conveying mechanism 10, the steel ring film laminating and transferring mechanism 3, the workpiece picking and placing mechanism 4 and the hot-pressing and laminating mechanism 5 are sequentially arranged along the conveying direction of the track conveying mechanism 10, the steel ring feeding mechanism 7 is arranged adjacent to the steel ring film laminating and transferring mechanism 3, the workpiece feeding mechanism 8 is arranged adjacent to the workpiece picking and placing mechanism 4, the empty box blanking mechanism 9 is arranged adjacent to the workpiece feeding mechanism 8, wherein:

the steel ring feeding mechanism 7 is used for placing the steel ring 100;

the workpiece feeding mechanism 8 is used for placing a material box 101 loaded with workpieces;

the film layer feeding mechanism 2 is used for conveying a film layer to the position below the steel ring film covering and transferring mechanism 3;

the steel ring film covering and transferring mechanism 3 is used for picking up the steel ring 100 from the steel ring feeding mechanism 7 and placing the steel ring on the film layer, and transferring the steel ring 100 after film covering to the track conveying mechanism 10;

the track conveying mechanism 10 is used for transferring the coated steel ring 100 to the position below the workpiece taking and placing mechanism 4;

the workpiece picking and placing mechanism 4 is used for picking workpieces from a material box 101 of the workpiece feeding mechanism 8 and placing the workpieces on the inner side of the steel ring 100 after film covering;

the hot-pressing attaching mechanism 5 is used for hot-pressing attaching a film layer to the surfaces of the workpiece and the steel ring 100 to form a finished product;

the finished product receiving bin 6 is used for collecting the finished products;

the empty magazine unloading mechanism 9 is used for picking up the empty magazine 101 from the workpiece feeding mechanism 8.

In the processing process of the device, firstly, a steel ring 100 is placed on a steel ring feeding mechanism 7, and a material box 101 loaded with a workpiece is placed on a workpiece feeding mechanism 8, when in film covering, a film layer feeding mechanism 2 operates and conveys a film layer to the position below a steel ring film covering and conveying mechanism 3, the steel ring 100 is picked up from the steel ring feeding mechanism 7 and placed on the film layer by the steel ring film covering and conveying mechanism 3, then the steel ring 100 after film covering is conveyed to a track conveying mechanism 10, the track conveying mechanism 10 conveys the steel ring 100 after film covering to the position below a workpiece picking and placing mechanism 4 in the operation process, then a workpiece picking and placing step is carried out, the workpiece is picked up from the material box 101 of the workpiece feeding mechanism 8 by the workpiece picking and placing mechanism 4 and placed on the inner side of the steel ring 100 after film covering, and then, utilizing the hot-pressing laminating mechanism 5 to hot-press and laminate the film layer on the surface of the workpiece and the surface of the steel ring 100 so as to form a finished product, after the processing is finished, utilizing the finished product receiving bin 6 to collect the finished product, simultaneously, the empty material box discharging mechanism 9 picks up the empty material box 101 from the workpiece feeding mechanism 8, and circularly executing the next film coating processing period. Based on the above principle, the utility model discloses can accomplish processes such as tectorial membrane, pressfitting, last unloading automatically, not only improve work efficiency, satisfy high-quality, high uniformity processing requirement moreover betterly.

In order to drive the steel ring 100 to move one station at a time, referring to fig. 2, the rail conveying mechanism 10 includes two mutually parallel conveying rails 11 and a step-by-step moving mechanism 12, two side edges of the steel ring 100 are respectively disposed on the two conveying rails 11, and the step-by-step moving mechanism 12 is used for driving the steel ring 100 to move one station at a time.

As a preferable mode, referring to fig. 3, the steel ring feeding mechanism 7 includes a steel ring feeding support 70, a steel ring carrying platform 71 is fixed on the top of the steel ring feeding support 70, and a plurality of steel rings 100 are stacked on the steel ring carrying platform 71.

Combine fig. 4 and fig. 5 to show, the utility model discloses the preferred vision detection of adopting is mutually supported with the manipulator and is got the mode of putting, specifically indicates, work piece is got and is put mechanism 4 and is got and put sideslip module 40 and visual detection module 41 including getting, visual detection module 41 is located work piece feed mechanism 8's top, the motion end of getting to put sideslip module 40 is equipped with the steel loop and picks up manipulator 42, visual detection module 41 is including visual detection support 410 and locate CCD camera 411 on the visual detection support 410. In the above structure, the transverse moving module 40, the visual inspection module 41 and the controller form a complete closed-loop control system, which can accurately and reliably pick and place the workpiece.

Referring to fig. 6, in the present embodiment, the film layer feeding mechanism 2 includes a film layer feeding platform 20, and the film layer feeding platform 20 is provided with a film layer conveying roller set 21 and an operation driving mechanism 22 for driving the film layer conveying roller set 21 to operate.

As a preferable mode, referring to fig. 7, the finished product receiving bin 6 includes a receiving platform 60, and the receiving platform 60 is provided with a receiving tower 61 for placing the finished product and a lifting mechanism 62 for driving the receiving tower 61 to ascend or descend.

Furthermore, the front side and the rear side of the material receiving tower 61 are respectively provided with an opening 63, the inner walls of the two sides of the material receiving tower 61 are respectively provided with a plurality of transverse guide grooves 64, the transverse guide grooves 64 on the inner walls of the two sides of the material receiving tower 61 are aligned one by one, and the edges of the two sides of the finished product are respectively inserted into the two transverse guide grooves 64 which are oppositely arranged.

In the above structure, since the lifting and lowering mechanism 62 can drive the material receiving tower 61 to ascend or descend, when one finished product is inserted into two transverse guide slots 64 of the material receiving tower 61, the lifting and lowering mechanism 62 can drive the material receiving tower 61 to descend by one step, and then the next finished product is inserted into the corresponding two transverse guide slots 64, so that a plurality of finished products can be loaded into the material receiving tower 61 in a multi-layer manner, and the finished products can be better collected.

In order to cut the film layer immediately after the film coating, in the present embodiment, referring to fig. 8, a film cutting mechanism 23 for cutting the film layer is provided between the steel ring film coating transfer mechanism 3 and the film layer feeding mechanism 2.

Specifically, the film cutting mechanism 23 includes a film cutting vertical plate 24, a traverse slide rail 25 and a film cutting driving motor 26 are fixed on the film cutting vertical plate 24, a traverse slide block 27 is arranged on the traverse slide rail 25 and is in sliding fit with the traverse slide rail, a driving end of the film cutting driving motor 26 is connected with a transverse screw rod 28, a screw rod pair 29 is arranged on the traverse slide block 27, the transverse screw rod 28 passes through the screw rod pair 29 and is in threaded fit with the screw rod pair 29, and a film cutting guide vane 270 is fixed at the lower end of the traverse slide block 27.

As a preferable mode, please refer to fig. 9, the empty magazine discharging mechanism 9 includes a magazine collecting enclosure 90 and a magazine traversing mechanism 91, a magazine picking manipulator 92 is disposed at a moving end of the magazine traversing mechanism 91, and the magazine picking manipulator 92 is configured to pick the empty magazine 101 from the workpiece feeding mechanism 8 and place the empty magazine in the magazine collecting enclosure 90. In the structure, the empty material box discharging mechanism 9 can timely collect and arrange empty material boxes, and can be conveniently recycled.

In order to ensure that the finished product accurately enters the finished product receiving bin 6, in this embodiment, a finished product feeding mechanism is preferably disposed on the front side of the finished product receiving bin 6, please refer to fig. 10, in this embodiment, two feeding support plates 65 parallel to each other are disposed on the front side of the finished product receiving bin 6, two belt pulleys 66 and a conveying belt 67 sleeved on the two belt pulleys 66 are disposed on the inner sides of the feeding support plates 65, a belt driving motor 68 for driving the belt pulleys 66 to operate is fixed on the feeding support plates 65, a plurality of driven rollers 69 are disposed on the inner sides of the feeding support plates 65, the driven rollers 69 are disposed above the conveying belt 67, the edge of the finished product is clamped between the driven rollers 69 and the conveying belt 67, and when the conveying belt 67 is driven to operate by the belt driving motor 68, the finished product is conveyed from the rear end of the track conveying mechanism 10 to the driven rollers 69 by the cooperation of the conveying belt driving motor 67 and the driven rollers 69 The material receiving tower 61.

In order to better describe the technical scheme of the utility model, the utility model also discloses an automatic film coating process which is realized based on a device as shown in figures 1 to 10 and comprises a machine table 1, wherein the machine table 1 is provided with a film layer feeding mechanism 2, a steel ring film coating transfer mechanism 3, a workpiece picking and placing mechanism 4, a hot-pressing laminating mechanism 5, a finished product receiving bin 6, a steel ring feeding mechanism 7, a workpiece feeding mechanism 8, an empty bin blanking mechanism 9 and a track conveying mechanism 10, the film layer feeding mechanism 2 and the finished product receiving bin 6 are respectively arranged at the front end and the rear end of the track conveying mechanism 10, the steel ring film coating transfer mechanism 3, the workpiece picking and placing mechanism 4 and the hot-pressing laminating mechanism 5 are sequentially arranged along the conveying direction of the track conveying mechanism 10, the steel ring feeding mechanism 7 is arranged adjacent to the steel ring film coating transfer mechanism 3, the workpiece feeding mechanism 8 and the workpiece taking and placing mechanism 4 are arranged adjacently, the empty box blanking mechanism 9 and the workpiece feeding mechanism 8 are arranged adjacently, and the process comprises the following steps:

step S1, placing a steel ring 100 on the steel ring feeding mechanism 7, and placing a magazine 101 loaded with workpieces on the workpiece feeding mechanism 8;

step S2, the film layer feeding mechanism 2 operates and conveys the film layer to the lower part of the steel ring film transfer mechanism 3;

step S3, the steel ring film-covering transfer mechanism 3 picks up the steel ring 100 from the steel ring feeding mechanism 7 and places the steel ring on the film layer, and then transfers the film-covered steel ring 100 to the rail conveying mechanism 10;

step S4, the track conveying mechanism 10 transfers the coated steel ring 100 to the lower part of the workpiece pick-and-place mechanism 4;

step S5, the workpiece picking and placing mechanism 4 picks up the workpiece from the magazine 101 of the workpiece feeding mechanism 8 and places the workpiece inside the steel ring 100 after film covering;

step S6, the hot-press bonding mechanism 5 hot-press bonds a film layer on the surface of the workpiece and the surface of the steel ring 100, so as to form a finished product;

step S7, the finished product receiving bin 6 collects the finished products, and the empty magazine discharging mechanism 9 picks up the empty magazine 101 from the workpiece feeding mechanism 8.

The above is only the embodiment of the present invention, and is not intended to limit the present invention, and all modifications, equivalent replacements or improvements made within the technical scope of the present invention should be included within the protection scope of the present invention.

Claims (6)

1. A hot-pressing laminating mechanism is characterized in that the hot-pressing laminating mechanism is used for hot-pressing laminating a film layer on the surfaces of a workpiece and a steel ring and comprises a front and back transverse moving mechanism and a hot-pressing platform, a transverse moving platform is arranged at the moving end of the front and back transverse moving mechanism, a first lifting moving support, a second lifting moving support, a first lifting driving mechanism and a second lifting driving mechanism are arranged on the transverse moving platform, the first lifting moving support is positioned at the front side of the second lifting moving support, the first lifting driving mechanism is used for driving the first lifting moving support to ascend or descend, the second lifting driving mechanism is used for driving the second lifting moving support to ascend or descend, a forward inclined scraper plate is arranged at the upper end of the first lifting moving support, a roller shaft is arranged at the upper end of the second lifting moving support, the inclined scraper blade and the roll shaft are both arranged below the film layer, when the front and back transverse moving mechanism drives the transverse moving carrier to move from front to back, the second lifting driving mechanism drives the second lifting moving support to ascend, the film layer is rolled on the surface of the workpiece by the roll shaft, the first lifting driving mechanism drives the first lifting moving support to ascend, the film layer on the bottom surface of the workpiece is scraped by the inclined scraper, the hot-pressing platform is arranged above the film layer, a hot-pressing frame and a hot-pressing lifting driving mechanism for driving the hot-pressing frame to ascend or descend are arranged on the hot-pressing platform, the hot-pressing frame and the steel ring are arranged in an aligned manner, when the hot-pressing lifting driving mechanism drives the hot-pressing frame to descend, the film layer is attached to the steel ring in a hot-pressing mode through the hot-pressing frame.

2. The thermal press-fit mechanism according to claim 1, wherein the first elevation driving mechanism is a motor screw driving mechanism, and the second elevation driving mechanism is a cylinder driving mechanism.

3. The thermal press fit mechanism of claim 1, wherein the roller is a rubber roller.

4. The thermal pressing attaching mechanism according to claim 1, wherein a plurality of inclined scrapers are provided at an upper end of the first elevating moving frame, and the plurality of inclined scrapers are sequentially provided in a left-right direction of the first elevating moving frame.

5. The hot pressing and attaching mechanism according to claim 1, wherein the hot pressing and lifting driving mechanism comprises an inverted U-shaped supporting plate, a lower end of the inverted U-shaped supporting plate is fixedly connected with the hot pressing platform, a hot pressing and lifting cylinder is fixed on the inverted U-shaped supporting plate, a hot pressing lifting block is fixed at a lower end of the hot pressing and lifting cylinder, and the hot pressing frame is fixed at the bottom of the hot pressing lifting block.

6. The hot pressing and attaching mechanism according to claim 5, wherein four sliding sleeves are fixed on the inverted U-shaped supporting plate, sliding rods are arranged in the sliding sleeves in a sliding fit, and the lower ends of the sliding rods are fixedly connected with the hot pressing lifting block.

Images